KR20090128758A - The grain depot of cool air distribution system - Google Patents

Abstract

PURPOSE: A cool air distribution structure of a grain storehouse is provided to improve cooling efficiency by supplying cool air from both the upper part and lower part of a grain storehouse simultaneously. CONSTITUTION: A cool air distribution structure of a grain storehouse comprises a grain storehouse(1) whose bottom(101) is formed by porous network and which is provided with an agitator(103), a diffuser(104) for spreading grain to supply it, a grain discharge device(102), an outlet of a ventilator, an outlet of a cooler, and an air discharge path(105), wherein the transfer port(2) of pipe shape whose inlet(201) is located at the lower part of the bottom of a storehouse and whose outlet(202) is located at the upper part of the storehouse.

Description

The grain depot of cool air distribution system

The present invention relates to the cold air distribution structure of the grain storage, and more specifically, by removing the hot air located in the upper portion of the grain storage by supplying cold air from the lower end of the cold storage of the grain storage stored grains to the top of the grain storage. It is possible to cool the grain simultaneously in the upper and lower portions of the grain stored in the grain storage.

In general, grains are limited to a certain period of time, and at the same time, grain storage, which is a facility for storing and storing harvested grains, is required. Harvested grains contain grain as a method for preventing corruption and storing for a long time. There is a dry storage method to store less moisture and a low temperature storage method to lower the temperature of the stored grain. The grain storage system is equipped with a blower to dry the grain by injecting air, and a cooler to cool the grain by cold storage. Used.

As described above, the grain storage for drying and low temperature storage of grains is formed by a conventional grain storage space at a distance from the ground to form a storage floor formed of a porous network, and the air for drying the grain below the storage floor. Grain storage for drying or cooling grains has been proposed and used in the past by supplying cold air for supplying or lowering the temperature of grains so that the supplied wind and cold air is supplied to the grains through the pores of the storage bottom.

That is, in the conventional grain storage, as shown in FIG. 1, a cold discharge of the grain discharge device and a cooler for cooling the grain and an air outlet for grain drying are located at the bottom of the bottom of the reservoir formed of a porous network, which is floated to a certain height from the ground. It consists of a grain input device and agitator to stir grain at the top of the reservoir. In order to dry and cool the grains, the grains are agitated using a stirrer and the grain drying air or cold air is introduced to dry or cool the grains while the air or cold air passes between the grains through the bottom of the reservoir.

Conventional grain storage as described above is effective as a method for drying grains, but is unsuitable as a method for cooling grains at low temperature.

In other words, when the low temperature storage of grain is required, it is mainly performed when the outside air temperature is high in summer. This is because the roof of the granaries is always heated to sunlight and cold air supplied to store the grains at low temperatures is supplied to the grains through the pores at the bottom of the granaries, and the cold air passes between the grains and absorbs the heat of the grains. The upper part of the grain storage will always have hot air.

Therefore, grains located at the top of the hot air and grain storage are not easily cooled, which consumes a lot of energy to cool the grains, and the quality of grains located at the bottom of the grain storage and grains at the top is different.

In other words, the cold air passes between the stored grains through the pores in the bottom of the cellar, and is transferred to the upper part of the cellar. In order to facilitate the circulation of the cold air, the grains are stirred using a stirrer to facilitate the circulation of the cold air, but a large amount of grain is simultaneously It is stored and the shell of the grain is insulated, so it takes a long time to cool down, especially the upper part of the grain store, ie the upper part of the stored grain, which forms the air layer warmed by the radiant heat of the sun, in addition to the hot air that cools and rises the grain. The temperature difference between the bottom and the bottom is severe, cooling efficiency is inferior, and the grain located at the top is degraded.

The present invention devised to improve the above-mentioned drawbacks as described above. The cold air is supplied to the lower side of the bottom of the grain storage bin and at the same time, it is possible to simultaneously supply the cold air to the empty space of the upper part of the reservoir, that is, the grain is stored. The purpose of the present invention is to propose a cold air distribution structure of the grain storage which prevents contact with the grain storage and provides cooling air at the same time as the upper and lower portions of the grain storage.

In order to achieve the above object, the present invention forms a cold air conveyance port as a tubular body, but installs a chuck valve at the inlet of the transport port so as to be located at the bottom of the bottom of the reservoir where cold air is supplied, and the outlet of the transport port is located at the top of the grain reservoir. By cooling the cold air supplied to the bottom of the cellar to the upper part of the granary through the tubing conveyer to cool the hot air located in the upper part of the cellar to block the heat transmitted to the grain and to prevent the loss of cold air In order to prevent the loss of cold air and condensation due to the temperature difference between the inside and outside of the storage room by installing an air damper that can be opened and closed in the air discharge line and a fan installed on the roof of the grain storage.

According to the present invention as described above, the cold air is supplied to the bottom of the grain reservoir at the time of operation of the cooler and simultaneously supplied to the upper portion of the reservoir through the transfer port, thereby cooling the hot air heated by solar heat and the grain. Due to convection in the upper part of the cellar, it is located in the upper part of the cold air and is not in contact with the grain. There is an advantage that the grain can be cooled simultaneously at the top and bottom of the grain reservoir.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

First, Figure 2 is a partial cross-sectional view showing the internal structure of the present invention grain storage and Figure 3 is an exemplary view showing the main part of the present invention.

In other words, the present invention is formed by forming a porous bottom of the cellar bottom 101 of the granary (1) consisting of a cylinder having a roof floated to a certain height from the ground and agitator 103 for stirring the grain on top of the cellar and supply A diffuser 104 is provided for spreading and supplying the grains to be spread. A grain discharge device 102 and a discharge port of a blower for drying grains and a discharge port of a cooler for grain cooling are installed at the bottom of the reservoir bottom 101. In the conventional conventional grain storage (1) in which the air discharge pipe passage 105 is provided;

The inlet 201 of the conveyance port 2 formed by the tubular body is located at the bottom of the reservoir bottom 101, and the outlet 202 of the conveyance port 2 is located at the top of the reservoir, and the air discharge pipe passage 105 Air damper (3) is installed on one side of the fan and a fan (4) is installed on one side of the roof.

The present invention as described above is configured to operate the cooler and the chuck valve 203 and the air damper (3) in conjunction with the operation of the cooler air damper (3) is closed and the chuck valve (203) open the transfer port (2) Cold air supplied to the bottom of the reservoir bottom 101 is supplied to the upper part of the cellar through the transfer port 2 to cool the grains located in the upper part of the cellar, and the hot air that passes through the grain is heated to the upper part of the cellar. At the same time, a cold air layer is formed between the hot air layer and the grain at the upper part of the reservoir by the convection phenomenon, and the air damper 3 is opened when the dry air is supplied to dry the grain. Locking the chuck valve 203 of the) prevents the drying air from moving through the transfer port (2) and operates the ventilator (4) to facilitate the circulation of air to the inside and outside of the reservoir It is possible to prevent condensation caused by docha.

1 is an exemplary view showing the configuration of a conventional antique storage

Figure 2 is an illustration showing the configuration of a grain storage of the present invention

3 is an exemplary view showing an example of a device of a conveying port which is a main part of the present invention.

 *** Explanation of main parts of drawing ***

1: grain storage 101: bottom of storage

102: grain discharge device 103: agitator

104: diffuser 105: air discharge pipe

2: transfer port 201: entrance

202: outlet 203: chuck valve

3: air damper 4: fan

Claims (2)

Forming the bottom of the reservoir 101 of the granary (1) consisting of a cylinder having a roof with a porous network to float to a certain height from the ground and spread the agitator 103 and stirring the grain to the top of the reservoir It is equipped with a diffuser 104 for supplying, and at the bottom of the reservoir bottom 101, a grain discharge device 102 and a discharge port of a blower for drying grain and a discharge port of a cooler for grain cooling are provided. In a conventional grain storage 1 in which 105 is installed; Grain storage characterized in that the inlet 201 of the conveying port (2) formed of a tubular body is located at the bottom of the reservoir bottom (101) and the outlet (202) of the conveying port (2) is located at the top of the reservoir. Cold air distribution structure. The method of claim 1 The transfer port (2) is cold distribution structure of the grain storage, characterized in that the chuck valve 203 is provided at the inlet (201).

Images